Sofiane Bououden scite author profile

This paper proposes a novel method for designing robust nonlinear multivariable predictive control for nonlinear active suspension systems via the Takagi‐Sugeno fuzzy approach. The controller design is converted to a convex optimization problem with linear matrix inequality constraints. The stability of the control system is achieved by the use of terminal constraints, in particular the Constrained Receding‐Horizon Predictive Control algorithm to maintain a robust performance of vehicle systems. A quarter‐car model with active suspension system is considered in this paper and a numerical example is employed to illustrate the effectiveness of the proposed approach. The obtained results are compared with those achieved with model predictive control in terms of robustness and stability.

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Fuzzy model based multivariable predictive control of a variable speed wind turbine: LMI approach

Bououden¹,

Chadli²,

Filali³

et al. 2012

Renewable Energy

160

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An ant colony optimization-based fuzzy predictive control approach for nonlinear processes

Bououden

Chadli

Karimi

2015

Information Sciences

116

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Constrained model predictive control for time-varying delay systems: Application to an active car suspension

Bououden

Chadli

Zhang

et al. 2016

Int. J. Control Autom. Syst.

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Fuzzy predictive controller design using Ant Colony Optimization algorithm

Bououden

Karimi

Chadli

2014

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